Cae

What I do

• Perform finite element analysis (FEA) for structural analysis
• Conduct computational fluid dynamics (CFD) simulations
• Run thermal and heat transfer analyses
• Perform modal analysis and vibration studies
• Support optimization and topology optimization

When to use me

• When validating designs against physical loads
• When analyzing stress and deformation in structures
• When simulating fluid flow and heat transfer
• When optimizing designs for weight or performance
• When predicting product behavior before physical testing

Key Concepts

FEA Fundamentals

# Basic FEA workflow
class FEAAnalysis:
    def __init__(self, geometry, mesh_params):
        self.geometry = geometry
        self.mesh_params = mesh_params
        self.boundary_conditions = []
        self.loads = []
    
    def mesh(self):
        """Generate finite element mesh"""
        return {
            "nodes": self._generate_nodes(),
            "elements": self._generate_elements(),
            "element_type": self.mesh_params.get("type", "tetrahedral")
        }
    
    def apply_boundary_conditions(self, bcs):
        """Apply displacement constraints"""
        self.boundary_conditions = bcs
    
    def apply_loads(self, loads):
        """Apply forces, pressures, temperatures"""
        self.loads = loads
    
    def solve(self):
        """Solve system of equations"""
        # K * u = F
        stiffness_matrix = self._assemble_stiffness()
        load_vector = self._assemble_loads()
        displacement = self._solve(stiffness_matrix, load_vector)
        return displacement
    
    def postprocess(self, results):
        """Calculate stresses, strains"""
        return {
            "displacement": results,
            "stress": self._compute_stress(results),
            "strain": self._compute_strain(results)
        }